Metal-coating machine



May 15, 1928. 1,669,975

- A. R. CURTIS METAL CdATING MACHINE I I Filed-DecxZSL 1922 10 s t -s t 1 I i WWW I H7707??? 5 MW U May 15, 1928. i

A. R. CURTIS METAL COATING MACHIQE Filed D80. 26, 1922 10 Sheets-Sheet .2

Hfiorne 5 May 15, 1928. 1,669,975

. A. R. CURTIS.

METAL COATING MACHINE Filed Dec.26, l922. 1o sheets-sheet 5 May 15, 1928.

A. R. CURTIS METAL COATING MACHINE Filed Deq. 26, 1922 l0 sheets-Sheet .5

A. E. CURTIS METAL COATING MACHINE Filed memes, 1922 10 Sheets-Sheet e A, R. CURTIS ME'IMJ COATING MACHINE May 1-5, 1928.

Filed. D99. 26, 1922 1o Sheets-Sheet ,7

May 15, 1928.

A. R. CURTIS METAL COATING MACHINE Filed Dec. 26, 1922 -10 Sheets-Sheet 8 May 15, 1928.

' A. R. CURTIS m-mr. com-me'ucniun 10 Sheets-Sheet I 9 Filed Deg. 26. I922 1 hweniar f 17 fforneys May 15, 1928,

A. R. CURTIS mam. comma momma Filed 1260, 2 6. 1922 10 Sheets-Sheet 1o ARTHUR R. CURTIS, OF CLEVE Patented May 15, 1928. I

"UNIE' LAND", onto, Assienoa rociiennnon J. HAYS, or

CLEVELAND, euro.

. Marat-COATING MACHINE.

Application filed December 26, 1922. Serial No. 608,832.

Thisinventionrelates to a galvanizing or metal coating machine and. 1S an improvement on the machine show-n in PatentNo.

1,383,555, granted July 5, 1921, jointly in the names of Joseph Moiito and myself. This machine. like that shown 'n the Monte and Curtis patent is adapted particularlyfor galvanizing pails, but itinaybe used also for galvanizing other vessels or articles, but in the following description the article being galvanized will for convenience be referred to as a pail, but it will be understood that the word pail is not used in' a lii'nitingvsense nor asindicating that other articles inay not be handled in the H1ZlCh1I10..

The principalv object ,or the present iiivention is to provide certain improvements wherein-more Satisfactory galvanizing 'may be done. More particularly the invention aims to improve the galvanized product by insuring a thin, uniform coat and to eliminate bare spots and rough spots which at times, at least, occurred heretofore.

Still further the invention aims toavoid' excess thickness or amount of metal at any point, and to provide a smooth edge at thetop of the pail.

A still further object is to provide a ma chine having large capacity, 1. e; wherein the articles may be galvanized in a very satisfactory manner aswell as withrapidity. Additionally it is one ofthe objects to pro-;

vide a machine constructed for durability,

' and wherein the parts are not liable to impairment by wear orheat from theliqu d metal. I n V v a The above ob ects are attainedby l111- proveinents which I have made in all the essential elements of the machine, these im provements relating to the submerging de-' vice; to the transfer device whichmoves or transfers the pails to the drawing device; to,

the drawing device or mechanism which draws the pail out of the metal; to the drainmg, str king and d scharge I mechanism which receives the pail from thedrawing'.

device, causes it to drain in the proper ma'n ner and to be freed of excess metal, which clears the drainage edge of dripping metal and finally delivers the pailo utof the ma".

chine; to the skimming mechanism .which skiins the surface of the metal just before the pail is drawn therethrough; and to the so-cailed lowering device-by which the skimmer is caused'to work at the proper depth in the liquid metal. i

I Thevarious improvements ferred to will be. explained in detail inthe following description, and the invention may at this point be briefly summarized as consistingincertain novel details of con.

struction and combinations and arrangenientsofpartswhicli will be describedin the specification and set forth in the appended claims.

In the accompanyingsheets:of drawings wherein I haveshown an embodiment ofmy invention which operates very effectively,v Fig. l is a side elevation of my improved galvanizing or inetalcoating. machine with the pail shown by dotted lines in several positions in its cycle of movement through the machine; Fig. Qisanendwew lookinggto ward theright of Fig. 1; Fig. 3 is an end view looking towardthe left of Fig. 1; Fig.

lisatop plan view; Fig. 5, is a detail view showing a portion of the draining andclischarge d evice'on an enlarged scale; Fig. 6 is anenlai'ged detail' viewpartly in side elewhich Ihave made n the parts of the machine above re; a

vation and partly in section showing parti,c.

of the drawing device I on an enlarged scale Fig. 9 isa detail of the striker for striking fromthe draining edge of the pailthe drip material, they same being shown onan en larged scale Fig. lOis a side View ofa por} tion the machine with the frame" removed and showing fragments of the different cams and of thedriving gear on the cam shaftyl I which cams IIDPZLIUIDOUOD to the several important elements of the machine; Fig. 11

is a sectional. view substantially along the line 1 1 ,'11 of Fig. 10,1 ooking in the direc tion indicated :by the arrows. but omitting all parts beyond a rockershaft; Fig. 121s a, View similar to the end view of Fig. 2, but

omitting the. frame, this" View being on an enlarged scale and; showing certain -'Of the, parts in section; Fig. 13 is a view partly'in f section and partly in elevationof a portion of the machine, the section, being taken along the line I3- 1 '3 of Fig. 10 or" through the cam shaft and showing the drawing mechanism in elevation in front of the" cam shaft; Iflgllttlsik diagrammatic view showing a number of positions that the peril as sumes in its passage'through the machine, and showlngthe irregular movement which is imparted to part oi the drawing device during the drawing and draining of the pall; and F1g. 1s a similar v1ew showing. many positions of the pail during the drawinga operation.

eterringinow to the drakwings, l0 rep resents the melting pot or receptacle which contains the molten metal, the level of which isindicated at 10. Above this pot is supp'orte'd the machine proper involving my improvements, which machine includes a. substantially rectangular frame 11, which is preferably formed chiefly of structural material and which supports all the workingparts. Near the top and slightly'to' the rear of the center otthe framethereis journaled a transverse shaft 12 which is provided with 1 series of cams, to be referred to presently.

fer operating the various parts of the machine. This shaft may be rotated in any suitable manner, but in this instance it is driven through worm and worm wheel gearing, designated as a: whole by the reference character 18, from a shaft 14 which like- Wise can be rotated inany sui-table'gnanner' but for convenience is shown provided with a driving pulley 14?.

At the lower frontpart'of the frame there 7 issupported the flux box 15, shown in elevation in. several of the views, and in section in Fig. 6 it being understood that this receptacl'e' which is openat the topand bottom extends downinto thermolten metal and contains the flux which floats. on the surface of the metal and through which thepails are passed by the submerger;

T 1e subm'e'rger which involves important features ot'my invention, pushes and directs the pail down'through the finx. into the molten metal and delivers it" to the transfer device. In doing-this certain important principles and. results. a re'followed or at tained co-wit; the lower edge of the pail is pushed into-"the metal first. The pail' is'thenl gradiially tipped so as to elevate the open enidto'jallow the flux to flow out of the inside ot the pail and: over the top or upper side of the pail in a proper manner, after which the pail is again tipped so that it will land 1,669,975 is c results isconstructed and operated; as follows: It includes two sets of push bars 'whiclr push the pail downward, the latter being; held upagainst the push bars by the reaction: of the molten metal. These consist of a pair of main push bars 16 which are adapted. to engage the top rim of the pail,

and a pair of auxiliary push bars 16" which are adapted to engage the bottom rim of the pail. The main push bars 16 are at their upper ends secured to a slide 17' which 1s guided for vertical movement by a pai-ro'f,

guides 1 8, the slide 17 being in this instance slotted at its oppositeupright edges and receiving the guides 18 which are in this case inithe form or flat strips, best shown in- Figs. 2 and 12', and suitably supported from the tiontjend of the' frame 1 1 as sh'own'in Fig.- 41' The. slide: 17 is connected by links 19 to a lever 20". which extends rearwardly over the cam shaft 12, its rear end being secured to a hub .20 which is rotata hly' or rockingly supported on a cross shaft 21 fixed in the upper rear part of the f.

machine. This lever 20has a roller 20 "(.see Figs. 4,10and 13) which rides on a camv 20"" secured to the cam shaft 12,. this cam serving therefore to control the lever 20 and therefbre the slide 17. I i 1 f The auxiliary push bars 1'6 at their upper ends are secured to slide bars 22' which sliide in' the slide 17 (see particularly Figs. 2, 6 and Theseslide bars 22 havesecured to. them a" cross piece 22* which is connected by links 28' to a lever 24 which is pivoted at 24 (see Figs. 1 and 4). to the lever'20. This lever 24:- is provided at its rear end with. a roller 24' which rides upon. asecond cam 25 secured to the cam. shaft, 12', as shown in i'gs. 4 and 13. The slide bars 22 which carry the auxiliary push bars I6, are pulled yieldin'gly upward so that shoulders on the slide bars engage the bottom.

of the slide 17, by means of springs 26 which at their upper ends are connected to the extremetorward end of the lever 20.

Thus it will be seen that the push bars are controlled independently, and, in fact, they are controlled by the cams 20 and 25 so as to move unison and relatively in or:

d'er to push the pail downward and to tip itas desired and. as indicated in- Fig. 14, which will be referred to presently.

In order that the pail will follow the movement of these bars under all conditions a yielding front guide in the form of a pair: of bars 27 is provided for engagement with the top rim of the pail. These barsare pivoted. at 2' on. the upper part of the flux box. and at their upper ends they are provided with. a weight 27" which normally h'olds the bars in the position shown in Fi I and 6, i. e. in upright position, but per:

'mits the bars to'yieldund'er abnormal pres:

sure. The lower portions of these bars are badly out of place.

' co-operation of the front guide bars 27 and bent or recede rearwardly, i. e. toward the discharge end of the machine so that the pail will be tipped upwardly after the lower part thereof enters the molten metal. In

fact, the contour of these bars is such that w the top edge of the. pail remains in contact with the same until just before the pail seats itself in the transfer device. mounting for the bars or front guide insures that the pail will not be jammed or injured in any way should it stick or perchance get It is to be understood that the pail is tipped as it is moved downward by the push bars, the guide referred to and the one next to be described simply facilitating the tipping motion and co-operating with the push bars in Order that the'right tipping action is obtained.-

Additionally a rear guide consisting of a pair ofyielding bars 28'is provided for the pail, this coming into action after aportion of the pail has been pressed down below. the surface of the metal. 'The bars for1ning the rear guide 28 arepivoted at 28 onto the front end of the flux box and they are held yieldingly in upward position by a weight 28*. Inthe downward movement of the pail the back rim thereof comes in contact with the rear guide 28 beforethe pail is completely submerged as above stated,

and by the reaction from the weight 28 they hold the rear end of the pail up against the push bars until the pail is seated in the transfer device. v To prevent these bars 28 from interfering with the pail after it has reached the transfer device, an extension 28 is provided on the carrier for the bars 28, and the end of this extension is engaged by a roller 29 onthe slide 17 (see particularly Fig. 6), just before the slide reaches its lowermost position, thus pushing the guide bars 28 out of engagement with the pail. The'extension 28 is normally held by the weight 28 against-a stop 28 carried by the frame as shown by dotted'lines in Fig. '6. i

As before stated, the auxiliary lever 24 is fulcrumed on the main lever 20, the springs 26 holding the auxiliary push bars 16* and slide bars 22 in upperposition. All the push bars are moved downward by gravity while engaged in pushing the pail downward through the metal and tipping it with the rear guide bars 28, th'esepush bars and the parts supporting them being operated positively on their upward movement only. This insures that no injury will result to any part of the machine if the operator fails to properly place the pail in to be engaged'by the push bars.

In Fig. 14 I have shown at A the position of the floating pail after the operator has placed the same in the flux box for en agement with the'push bars. At B I ave The yielding.

. metal.

position shown the position of the pail at the end of the submerging operation or atithe in: stant that the'pail seats in the transfer device.

which are imparted to the pail in successive time intervals of equal lengths. seen that the, pail is first pushed downward so that the lower front edge of the pail first passes through the flux and enters "the is shown as-having been tipped slightly and while passing through several ,of the next succeeding positions shown this tipping is continued along with the downward. movement, the rear end of the pail being lowered more rapidly than the front end so as tip the pail upwardly and allow the flux to flow out from the interior of the pail It will be Between the positions A and B I have shown the pail-in thirteen different pof sitions which clearly show the movements In the .next lower position the pail It will be i seen also that beginning just beforethepail I I is entirely submerged and during the remainder of "the movement the pail is tipped I in the reverse direction, i. e. toward the horizontal position again, this being accomplished by moving the front end of the pad downward more rapidly than the rear end. In fact,.when the entire'pailis submerged the movement is largely a swingingmove-I ment, and finally when the pail reaches position B in the transferdevice, it s 1 n horrzontal position or substantlally so as ll'l'POSI- tion A, being now not only below position"- A but somewhat forwardly thereof.

Each pail, of course, is given this same movement fromthe time that it is engaged by the push bars of the su'bmerger untilitf reaches the transfer device,'this movement being obtained through the control of the cams 20 and 25 on cam shaft12 which cause the push barsto be moved at timessimultaneously, or at the same or substantially the same speed, and at other times relatively, the

auxiliary push bars 16 moving aheador faster than themain push bars 16 to tilt or tip the pail upward while it is being sub merged, and the main push bars '16 moving faster than the rear push bars during the later movements whlle the pail is being restored again to horizontal position. It

understood. of course, that the front and rear guide bars 27 and 28 co-operate with the push bars to obtain this result.

I might add at this point that the tipping I motion first in one direction and then in the other which is imparted to the-pail, by the submerger is very important to the attainment of good results inobtaining pails'coniportion of the cycle.v In other -wor ds,-fit is i whose upper end is connectedv to the'l'or- .movelnent. This willbe brought about if .Unated B and B since, as above explained.

, their lowermost position [pail out 01- the metal a1 rotata hl y' mounted on: shalt which is sup- ,the rear portions of said. links being support- 50- of the l'rameand to be si-ibsequently re 9 the swinging movement o l? the cradle and? arrl've at the same pomt 1n the ltork of the at the lower left hand corner of Fig. 1, where thebars 31 are at their upper ends bent at an meme-75:

71)? are supported in: rooves 37 provi-ded ll ll the faces otarms 37 integral with hubs 38' secured to the cross shaft 32, thevsaid hubs and: their. arms 37 means by which the arms the cradle are attached: to the shaft 321 To provide for corwenient ad iustinentoii the cradle to adapt the latter lor pails oi difierent sizes, thebent ends 31 of the cradle arniis- 31 have secured to t-hem: racks which are engaged pinions 4L1) meunted on: shat-t 40 (sec particularly Fig.5 4-.) said: shaft having a squared end. asshown in I" 7, to which a wrench. maybe applied. L; adjustment til-imparts a=re-clamped= together by a bolt lying: inslots 3? extending lengthwise oil' the hu'h-arms il'lt;

important that the pail have predetermined rectilinear and an gu'larmoti'ons imparted at predetermined rates.

Tl' c transfer (lQVlCBI-QCG IVQS the pail from the submergenas explained: above',. and the I swings the nail out .t'ronrni'ider the flux box and carries or draws. the upper. side ofthe directs the upper front edge of the pail? into the lorl; ot the draw'vinpg deviceg. the pail being held inltho: cradle during this movement by the reaction of thetl uid metal. This tr deviceconsists 1 the cradle"SO carried by a pair of swinging arms 31 which are fulcrum ed or ported; by the frame 11 and extends acrossthe sametoward the front end of the machineand behind the-slide 1'7, as clearly shownine l ig. 1. The cradle is adapted to receive-pails oiidiill erent sizes and; to sup port the same centrally of the cradle; the cradle-hern'g formed by space-ct bars bent to prev e forward l y extending: s 'iaced supporting arms itl upon which the sides of the pails rest and u ow'ardly extending an $59" at the rear end which engage the bottoms of the pa'ils'. This shaftisrockedby a lever 33 top front edge of the pail from' the metal ber' of the drawing device, the latter being, at all times above the suri ace of the metal. The drawing device in. an automaticv galvanizing. machine constitutes one o f the vital elements of the machine/ and the drawing device which I have provided is oneof the principal factors in the success of the rum ward end orlf'links (see Figs. 13.4 and ed and guided by a lever 31'? loosely mounted on rocker shaft supported'in llQflTlllgS 'ferred to. The li'nlr'sa're' provided at their ream" ends with a. roller 35 which en the periphery of a cam 36 Eigsj l, 10 and 123), mounted oir'cam shaft 12. The contour of ca m is su'clras to swi-i'lgthe cradle. from the lower dotted line position to the.

the metal should besubmergcd again; thirdly, and after the pail is drawn, it must be quick flip which should be given to the pail to throw the excess metal out of the rim around the bottom of the pail." To attain these results the pail receiving and holdingv ce ptible of a turning motion andof'vertical and horizontal" mot1ons,., and these motions In tl s transfer device, the only adjustment that is necessary to make in the n=ach -ine is to take care of dillerentsizes of nails It will be apparent that the top front edge 04? all sizes must leave the same point beneath the flux box at. the start of parted at the same time or independently, or in combinations of any two at the same time and predetermined rates, and this is done in the present machine as will now'be described. i V 3 The pail receiving member-pf the drawing device is in the form: of a -iiork 42 which receives the top edge of the pail as it is thrust through the surface of the metal by the transfer device.

by ashaft 48 extending through and journ'aled in a stud 44 (see Figs. 8 and 8) which stud is supported by a slide bar L5" to be drawing); device at the end of the swinging the whole cradle is moved along the line X two smaller sized pails are shown and desirethe cradle 30' is adapted to support centrally thereof pails of different sizes To do'this jacent the side o'tthe machine opposite to that shown in Fig; 1) theshaftis provided with a gear 4:6 (see Figs.=8 and1'3) which is engaged by rack/i7, which rack is connected by a bar 4815b a lever 49 (see Figs.

angle corresponding with the angle which the line X makes with respect to the verti cal or with respect to the bars 3 when in These bent ends, which are shown at 31 (see particularly constituting; the" As before stated, the cradle brings the;

and delivers the' pail? to" the receiving mem chine constituting the subject matter of this secondly, no part after once coming out of member of the drawing device must besus must be controlled so that they can be in1- referred to presently. At its outer end (adso i at a proper dripping tangle except for the The fork 42 is carried 4 and 13) which is fulcrumed on the rocker shaft 'previously referred to and is provided with a roller 49 (see right hand side 01: Figs. 3 and13) engaging a cam groove .on the side of cam 51 carried on cam shaft 12, the lever 49 having a hub 4S) (Fig. 4) mounted on the shaft 50. By the action of this cam 51, transmitted through the lever 49, bar 48 and rack 47 to gear 46, rotary motion is imparted to the fork 42.

To give the horizontal motion to the fork 42, the slide bar 45 which carries the stud 44 is mounted to slide; up and'down. in arm (see Figs. 1, 8 and 10), which arm is pivoted to swing on cross-shaft 53 at the top of the frame and is provided with a roller 54 engaging cam 55 on cam shaft 12, (see particularly Figs. 3 and 13). Thus by the swingingof the arm 52 by the cam 55, the fork maybe moved horizontally back and forth. H

To give vertical motionto the fork 42,

slide 45'is connected by bar 56 to av lever 57, fulcrumed on shaft 50 through huh 57 (see Fig.4) and having a'roller58 (see Figs. 3-

and 13) engaging cam 59 on cam shaft 12.

Thus through the action of cam 59, and therefore through the rocking motion imparted to lever. 57'and endwise motion im-' parted to bar 56, the slide 45 may be moved up and down .so as to impart vertical movements to the fork.

Therefore by. the described mechanisms, rotary, vertical and horizontal motions can 1 be imparted to the fork 42. and as the motions are imparted by cams they can be given to the fork separately, simultaneously or in combinations'as already stated,

' To explain the motions imparted to the fork 42 and the-movements imparted to the pailfiwhile it is being drawn and delivered to the part which next receives it, reference will again be had to Fig. 14. I have already explained that the pail is in position when acted on by the submerger and in position B when received in the transfer device.

- shows the position of the pail when the cradle of the transfer device is in about its mid position when shifting the pail to the fork of the drawing device.

D indicates the position of the pail whenreceived in the fork of'thedrawing device, the upper part of the pail having been drawn through the surface of the. metal which is indicated by the dot and dash line 10 the same as in Fig. 1. As already stated,.it is important that every point on the'mid vertical section of 'lhe pail pass through the same point in the surface of the metal, which point is designated Y. And as previously stated, it is important while carrying this out that no.

part of the pail be submerged a secondtime. To accomplish these results and at the same time to draw-the pail so that when it has passed entirely thrgugh the surface-of the inetal itis in the best possible position'for draining, the fork 42 is given the following movements: When the pail is in position D,

the fork, i. e. the axis about which it is turned orrotated isinthe position designated d. The pail is nextmoved to position .E witha diagonal straight line movement consistlngofa combined horizontal and vert cal movement bringing the axis of the fork to the position 6. This bringsthe top portionofthe bottom of the pail to the surface i. e.-when delivered to the fork, the axis'of of thelmetal. ,Then-the fork is turned and 4' so if caland horizontal movement until the axis of the pail is inthe position 9, bringing the pail to position G. In doing this, not only isthe fork turned but it is moved upwardly and toward'the front of the machine and then downwardly and toward the rear or discharge end of the machine as'indicated. by the dot and dash line between the points 7- and g. The pail is noweompletely drawn and is iii-draining position,- the open end being downward but. inclined somewhat from the vertical position so that the metal will drain from one point of the large or open end. Then the fork is lifted and moved rearwardly somewhat, bringing the pail to the position H, the axis of the fork now being at h. At this point in the cycle the pail is given a quick flip downward to position H to throw the excess metal out of the rim around the bottom of the pail. The pail is thenreturned again .to the draining position H, this downward flipping movement and brought about by the rotation of the fork. Then the pail is carried rearwardly and somewhat upwardly to position I, with the return movement being.

pail still maintained in draining position,

the axis of the fork'traveling in a straight line from h to 2'. Then while still in draining position the pail is moved downwardly and rearwardly slightly to position J where it is received in the forks 60 of the draining, striking and discharge device. When the delivery to the forks 60 occurs, the axis of' the fork 42 is at j, and from this point the fork 42 travels'back to position d which is,

the position'for receiving thenext pail;

In drawing the pail it isvery important in order to avoid excess thickness of the coated metal, and to obtain uniformthickness, that the pail not only be given predetermined rectilinear and turning movements, but it is equally important that these movements be imparted at predetermined times and at predetermined ratesjust as .in the'submerging operation, therate or speed of movement and the kind of movement varying from time to time in the drawing operation, and

being dependent at any particular instant on the portion ;f the pail that is being drawn. in Fig. I have shown the pail positions E, F and G which appear in ig.

14, and additionally I have shown'a large number of intermediate positions between the positions E and G, these intermediate positions showing the kind of movement and the extent of movement in consecutive time intervals of equal length. In this figure, in

showing'the intermediate positions referred to, the entire pail is not illustrated, as in the main positions, E, 'F and \G, in order that confusion might be avoided.

I might add that from the time t -hat the pail is in position D where it is received in the forlrofthedrawingzdevioe until the pail isentirely drawn and'moved to position ll :the movement is continuous, being important that throughout the drawing operation the ino-vei'n'ent be not stopped at any point.

Furthermore, in drawing the pail not only are the main principles previously outlined, adhered to, i. e. drawing :the tpail so that every point-on the vertical mid section will pass through the same point in the surface of the; etal and so that no part of the :pail will be immersed in the met-ale second time,

but the drawin is continuous as net stated,

j and the peel is drawn so as to create the least possible disturbance at the surface, the creating of waves-or ripples being avoided'so as to'elimina'te the liability of the 1111161- or outer surface of the pail beingre' ft with inarksor lines as would be the case if waves were: created. causing the metal to wash up against any part of the surface alread drawn through the metal. i

l have already statedthat both inthe'sub- :mergiiig operation and in the drawing operation the pail is given predetermined neclinear and turning movements at prede- 1 termined rates, and the diagrams illustratpail follows Lon Will ing the submerging and drawing movements show how the character of :movementand the rate of movement vary as the pail is moved during the submerging and drawing operations. Hence these diagrams show that :both duringthe submerging operation and the drawing operation the movement .of the a predetermined law of motion which is illustrated in the two diagrams referred to.

The draining, striking and discharge device receives the pail as just stated, and after holding it until all the metal has drained olf thatwill drain, it. strikes off the drip on the lower .edge of the pailand then turns the pail over and discharges itdown the discharge ways at the rear iendnof the" machine which lead .to a receiving platform ioh thepail lands with itstop .np .soas

to 'giwe a smooth finish to the top rim of the pail as the pail is turned over before the metal. has completely set on the rim.

The forks of the draining, striking and discharge device are connected by an arm and provided with a pinion 63 engaged by a rack 6 k 1, 5 and 10) which rack is connected by a bar ;to a lever :66 .(see F1 gs. 1 and 1 0) winch lever ls pivoted onto a.

part of the frame 11 and carries .a roller 67 adapted to be engaged by a cam '68 (see '70 60 to a shaft 61 journa led in a support 62 Figs. 1 and carried loy the camshaft 12.

The bar 65 is moved downward bynthe cam so as to rotate the forks 60 in the clockwise direction as viewed in Figs. 1 and 10 so as to discharge the peril clown the ways 69 shown at the right hand side of Figs. 1 and .10, and the bar 65 andxrack 6.4; are moved in the reverse d-irectlon so as to .returnthe forks 60 to pail receiving position by a spring 1'70 connected to the 'bar and to "the frame as clearly shown in Figs. 1 and 10. 3 This mechanism provides the motion for turnnig the pail over and discharging it. This discharge .does not take place immediately after the forks 60 receive the .pail, "but the pail is allowed to remain in the forks while in position {l shown in both Figs. 1 and 14: until all the metal has drained ofi'cthe pail that will drain, as already stated.

Then before the swingi g or discharge motion of the pail begins, the excess metal ion the draining edge of-the pail is struck off, and to do this I employ a striker-blade 71, which moves :over that part of the edge of the pail from which the draining took place,

Hill

with a quick swinging stroke in both dizrections. 'lhis .strikerlblade 71, which is shown in Figs. 51,19 Band 10, .is fastened in a holder :themain drive gear 13, this cam being shown-in 4 and. 10. Attached to the upper ends roller'79 which is adapt ed to engage a cam attached to thezrim rod 76 .to the frame isa :81 (see if particularly Figs; 1 anc which spring is in inclined position soas toexent both a :latoral and Lnpward pull on the rod? 6, and

therefore on theholder 72 and striker cbl-ade (K1. in other words, when thepail isflde llivered to the forks 6.0 and 'is in position .J,

the bl ede is pressed up yieldingly against the lower part of the drainingedge of the pail, and-at the proper instant at theend of the draining period the cam 80 on the drive gear comes into play, for just an instant, and

strikes the roller .7 9 sofas to give a quick blade to be given a quick wiping or strik-= ing'stroke across the draining edge of the pail and immediatelyafter the spring causes the blade to have a quick stroke in the re verse direction, the blade during both strokes following around the edge ofthe pail, i. e. its inclined contour so as to'forcibly strike off the metal drip clinging to the edge of the pail. i I

As soon as this is done the forks are r0- tated by the action of the cam 68, lever 66, bar and rack 64 so as to deliver the pail onto the ways 69 down which the pail slides, the pail being given a rotary motion through positions K and L to thedelivery position M shown in Fig. 1, as well as'in Fig l l. The forks then return to the position shown in Fig. 1 so to be ready to receive the next pail. r

The pails are discharged by the swinging forks 60 down the ways 69 with. some velocity, and at the bottom of the ways they strike the corner of ahorizontal receiving platform 69 and by their momentum are turned to upright position against a back I rest 69* as shown in FigL 10. lVhen'the pails 1 land-on the receiving platform 69*, as shown in Fig. 10, the metal has set on the body of the pail but not at the-top edge. Due to the fact that the top edge or rim encloses skims the surface ofthe metal through or. is wrapped arounda wire,there' is more metalor greater thickness of the metal at the top rim than elsewhere. This causes the heat to be retained longer at the top'rim then elsewhere and in consequence the metal has not set at the topv rim. Therefore, when pails land on the receiving'platform 69, the metal can still flow slightly at the top of the pail and it does this to a sufficient extent to leave the toprims of. thepails smooth and thereby eliminates the ragged edge which so frequently appears on the tops of galvanized pails. I p

Two additional important features of my invention yet remain to be explained, one being the skimmer which travels over and which the pail is drawn, and the second being a novel adjustment by which the skimmer blade may be caused to clip 'a' uniform depth into the surfaceof the metal.

" It is important that the skimmer on the skimming stroke be moved along a perfectly straight line, with its lower edge justdipping into'the metal, and that it be moved in the reverse direction on a level line just above the metal. In the pre sent'machine the skimmer is in the form of a flat blade 82 which extends substantially across the pot, and just before the pail is drawn to thesurface of the. metal the skimmer is caused to travel rearwardly or away from the' flux box with a quick stroke just above the surface of the'metal and then is lowered lnto the This shaft 50- carries a lever (see Figs.

l and 10) connected by links 86 to a lever -87 fulcrumed on shaft 21 and provided with a roller 875 (see Fig. 4:) engaging a. cam 88 on cam shaft 12. This cam88 through lever 87, links '86, arm. 85, shaft 50, levers. 84 and arms 83 imparts the sw1ng1ng move ment to the skimmer, blade 82.

To cause the blade to move along in a straight horizontal line so that its lower edge will be maintained at all times at a given depth in the metal tl'iroughoutthe skimming 7 stroke and to cause the blade to be lifted from the metal for the stroke in the opposite direction, the following movement controlling means is provided. A forked yoke 89 (see F 1, 2, 10 and 12) at its lower end skimmer blade, and atits top is connected to a. rocker-lever or bell crank 90 provided with an upstandmg arm 9O having a roller" 91 is hooked into the arms '83 carrying the I (see Figs. .10 and 11) engaging cam 92 on cam shaftl2 (see Figs. 4, 10 and 13) the contour of this cam being such -as to constrain the skimmer blade to travel in an inn .exactly level line on theskimming stroke i and to be elevated above the surface ofthe metal and to travel on an exactly level line on the out stroke and then to be lowered into the metal for the skimming stroke.

When the machine is inoperation it is obvious that molten metal, is gradually consumed or carried away by the pails as they are galvanized. Therefore, inorder that the skimmer blade may be maintained at a uniform depth in the metal it is necessary either that fresh metal be added to the pot-,or that there be an adjustment between the pot and the blade or the superstructure on the pot.

The addition of metal fromftime to (time is 'not feasible for the reason that it would have to be applied in the form of pigs which; would change the ten'iperature of the molten metal and be liable to cause splashing of molten metal which is to be avoided. I ad I con'ipliziih the result by the provision of means wherebythe skimmer blade may be lowered whenever desired, and in thisicase the entire" machine is lowered with respect to the pot containing the molten metal. To do this the frame 18 supported at its four ceruersby vertical'shafts 93, thelower por tions of the shafts being threaded. iq. 1G1 .t R e1 ear to poi ions 0 olGSG sia s are en :The I xiii . shafts, The horizontal shafts 95 gaged :by nuts 94 at the four lower corners of theirame .so that the frame and all the mechanism carried lby it will be raised .or lowered when these shafts are turned. ()n roppositesidcs 0f the trance there are pro-' vided a pair .oi horizontal shafts 9.5, at Finest one at which is provided with a hand wheell96 shown in Figs. 1 and 3., and both shafts are connected together so as to rotate fin unison ta sprocket chain '97 and sprocket wheels '98 provided on the two are connected to the vertical shafts 93 by worm :and worm Wheel gearing 99; Thus the op.-

ierstor has simply to turn the hand wheel 96,

fromytime to time so as to lower the ma- "oi :the transter:device it is swung up ity and are positively actuated only moved mrpward, :anclthe fact that the rehine toward the pot and thereby maintain vand :rear guides cooperating with the plush ibars tocanse the pail to have the rig-ht tipping: motions-as it is lowered. The fact that .the apushbars are moved downward by and rear 'uides may yield, eliminate the liability or injury if the pails are impropcrly handled placed in the machine by the operator.

It willbeunderstood also that 'llllllliwtll ly after i-the pail delivered Iinto the cr' and toward the rear of the machine brn g ng a small portion of the pail throi'lgh the metal into the fork ,oiyt'he drawing device which draws the pail, that every part on .the ,VBI'lS'lCZll nnd section oi" the pad 'en'ierges :i rointhe metal at the same point; initssurlace, and that the pail drawn without any part entering the metal a second tir :and when completely drawn is in the ri position for draining. Likewise. it will be understood from the above detailed description that the pails are flipped to dis-ch rge the metal from within the rim around-the bottom and then delivered in draining posi- .tion .to' the draining, striking and di cha g device. which receives the pail, holds it in draining position for. the proper leng T time, then strikes oil the drip metal at the draining edge, and finally turns the pail and delivers it to the discharge ways so as to ca-useit to land top up on the receiving platform, the operation of the parts being .so timediithat the landin of the Jail on the only.

platiiorm takes place Zloefore the metalgis completely set at the top edge, and allowing the edge to become smooth lee-fore :theaneta'l does set as explained above.

It will be understoodfrom script-ion also, that though the pants are shaped to accommodate pails, other aiessels or =-art,icfles could be very readily passed through the machine and galvanized iby slight changes in the shape of certain of the pants .to conform tothe shape of such other-articles that may be galvanized. It =wi l be understoodals-o that the' mach-ine is ada -ited for galvanizingpail-s of differ-Tent sizes simply by the adjustment of the 8.1111- 31 of the transfer device.

It will Z-be understood :also, that though of necessity the operations have been described in sequence, many movements are taking place at the same time so as a matter of fact the pails are passed through the machine and galvanized at a rapid rate assuming, of course, that they .are fed into the machine as fast as ,the speed thereoi permits.

lVhile l have shown simply the preferred nonstruction which has been tound by ex- .tensivetests to be verysatisfactory, I do not desire to :be confinec to the exact details shown, but aim in my claims; to cover all niodii "ations which do not involi e a departu re iron the spirit and scope of my invention as defined in .theappended claims.

Having described my invention, 1 claim the vailoove de- 1 1., A metal coating mac-bin s receptacle for fluid metal, .a silhmei gger .by which the articles are lowered into thefiuid metal, said submerge-r having independently movable, pushing members .engageable with the articles and each capable of exerting a downward thrust .on- .an article.

2. In a metal coating :i'nachine, 1a .receptacle E'for fluid metal, a submerger including separate downwardly mozvable pushing .members engageable with an article to push the same into the. metal, .and :means for moving said devicesrelatiyely whereby the article may be tipped While being lowered. I

In a :ine tal coating machine, a receptacle for fluid metal, and a .subinerger ifor suhmerging anarticle into the .fluid'metaL; said submerger.havingm eans .tor tipping the article first in onedirection and then in .an-

other during the downward .inov'ementof 1 the article.

4. In a metal coating machine, a receptacle for fluid metal, and asu bmerger for lowering an article into the ,fluid ,metal C0111- .p-r'ising devices for engaging the article :on the top and bottom edges or rims thereof In a coating :naachine, .a receptacle for fluid material, a subinerger ,Lfor flowering an article into the fluid materialmcomprising two pushlng devices ,for engaging definite portions of the article, and means for lowering said devices and moving thein relati'vely merger including means for engaging the article so as to push it into the material, and

means for positively actuating said means while the latter is'moved in an upward di rection only.

7. In a coating machine, a receptacle for I I gagement with the artlcle.

' fluid material, a submerger for submerging an article into the fluid material, said submerger including devices for engaging the upper part of an article and for pushing it downward into the material, and means for I actuating said devices so that in submerging while being submerged, said 'yieldably supported. I 12. In a metal coating machine, a re'oeptacle for fluid metal, and a submerger for they are non-positively actuated and are positively actuated on the return stroke. V ,8. In a coating machine, a receptacle for fluid material, a submerger for submerging' an article into the fluid material, said submerger including a member for pushing the article into the material, and a guide cooperating therewith to control'the path of movement of the article. a

9. In a coating machine, a receptacle for fluid material, a submerger for causing an article to be lowered into the fluid material, said submerger comprising a device for pushing the article downward into the material, and a yieldable guide'adapted to be engaged by the article while being submerged and cooperating with said lowering device so as to control the article. I

10. In a metal coating machine," a receptacle for fluid metal, and a submerger for lowering an article into the fluid metal, said path of movement of the submerger including means for engaging the.

article to pushit downward, and a pair of guides adapted to belengaged iby the article while being submerged;

- 11. In avmetal coating machine,'a rec'ep tacle for fluid metal, anda' submerger for lowering an article into fluid met al,""said submerger including means for engaging the article to push it downward, and a pair of guides adapted to be engaged by the article submerging articles into the fluid metal, said submerger comprising devices for engaging opposite end portions of the article so as to push the articleinto themetal, and guide means co-operatingftherewith to control the path of movement of the submerged.

article while being 13. In a metal coating machine, ,a receptacle for fluid metal, a submerger for sub merging articles into the fluid metal including means for engaging the upper portion of guides be ng the article so as to push} the article .intothe I I fluidmetalyand a pair of guides adapted to be engaged by" opposite ends of the article whilebeing submerged. 1 ltgIn ametal coating machine, a recep'; tacle if'or fluid metal,la s'ubmerger' forsub merging articles into the fluid metal includf ing means for engaging the upper 'portion of'the' article so as" topush'the article into the fluid metal, a guide adapted to be "engaged by the article while beingsubmerged, and means for moving said guidegout of en 15, In a metal coating machine, a recep tacle for fluid metal, and a submerger for lowering articles into the fluid metal com tion of and for pushing the article down ,ward, and guide means co-op'eratingthere with, both the pushing means andt'he 'guidmerging operation. v

- prisingmeans for engaging theupper porv "16. In a metal coating'machine, a recep z tacle for fluidmetal, and 'a submerger for lowering an article intothe' fluid metal including means for causing one endof the including means for causing'one end oft-he article to 'bemoved faster than the opposite I endi'during a portionof the *submerging' movement, and forv causing said opposite end to'be moved faster than the first named and; I

during another-portion offt-hesubmerging movement, v I

f 18.1In a metal coatlng mach1ne,-a receptaclefo'r fluid metal, and asubmergenfor' lowering an article into the fluid metal, said submerger having 1 means for lmpartlng d1fufe'rent predetermined rectilinear anda'ngu lar movements to the article-at'p'redeter mined times and at predetermined rates'be-f;

merging movement.

tween the beginningnndf nd f gh n 19. In a metal'coating machine, a recep tacle for fluid metal,*a submerger for cans;- ing'an-articleto be loweredinto"thefluid I metal, a 'devic efor. drawing the articlefrom'i p the metal, and an article engaging memberi foij'shiftingthe article thro'ughthemetal from the subm'erger to the drawing device and serving to draw a portion of-the arti- 1 cle through the surface ofthe metal.

20 In a' metal coating machinegarecep tacle for fluid metalfafsub'rnergerfdr lowering an article into. the fluidm'etal', a device operating wholly above the surfaceof the fluid metal'for drawing thejarticle from the metal and a movable transfer member for'moving the articlegfromthe submerger I i to the drawing device. I

s5 ing means being}yieldableiduring thesub material, and; an article, suppolzting niernber c to: the gin awingydevice and: mount eclaftq swing thra'u-gh an? arc.

c 1231; In metal-coating :mac-hine;:. a: recap tide"; adapted: 13,0 contain fluid 'ni'etal; 2iv silly mQItgQn for; lowering: articles? into thezvflnld" metaL af'cradle for receiving; anaarticlepand mean for swinging, thei' cradle: s0; as} to retain "the; anticle :tlieniniby the; ne -action of:

the metal through. Which the: a tic'le-q is mevedl 2 4;. Ametal 'comtinglamachine l suz'irlg;irate ep' mle 'fqr fluid m'etal .2, submelfger, drawing device and a transfer device fan mprving alfiiClQS.;t.O the i drawingycdevice havng an -adjll stme tiby which-said element's a edepted for anticlesoifi dlfilenenb sizes 1 1 11 metal: COating@,machine,:- recepen nglariicle in t e me l a draw ng fv ce'fiqi dmw inigc he ar cles im thelme al. and;

mS elf dev ce fa t ansferiiingj the djus b e bod y ent} sizes. 1

' .lfn1-;a-- eta1 ma ng miae "me almsubmergeri n lcl it themeta dram-Win device {011 m; adapht-l artic es; of;

he rtic es 10m" t e met-a1; a -i e5 ra ciet device, f ret an ie 'f ng the a it l'esa frgm he su me1=g i he draw g e ces; salcl transfer device having adjustable; memers by wh chthe arfii cle eceiving portion.

6 tmns devzi emayibe l it ecl o.

g en pa tc sfii. l fie cnh sized;

'tnagisfenidevi ee icr firans-fer'ring' the articles I 'fiziam the suhmerg'g g to the drawing device,

said bransfelz device including an article re ceivingflportion and one 'oi imqr'e. swinging arms? orsupport ng xtl1i-u;

articles into the metal,axdrawing deyice for ev e f r dww ng. t 211 1 QiQ I IS l min in.them dr iarti L c mi oe i he. anti? the; article hewing: hezkv tiszlee i mn. the me al; angl t ansf device: f r tmn rfermngi the Milcles from the submerger t0 the drawing 631-.

vic fi saidrtransfer device including an eifrti cle I vng po qn don 011 mp e adjl stable swinging: aymsfoi. supporting it. 29." Indexmetal; coating;machine,, m recegtra ele v f r; fl met l in wh ch amide? ane. ad ptedr q'be qwe e a d; means for ng the a cles from thenflu metalaancl imparting to the articles rotary; entice-Landqrpntal lnq e ents while: they a e being drawn efmm t e me al.-

i 30- nrmeta- Q tf g mac ine a: ne ep r le; 1401 fluid? met i to. hich; anti efi ans; adantiedito be bm rged an a ev e 0pm ct ng; whq y @i Y fth-Q su ace 05 -.t- ,e: m ta 39x; draw ng the; am nd 13931 0 m w ng-fie: eubmergel a P ly r ugh the surf-ac fhe me said device. i

Ln--a;: emce t ngm a ineltempl 1? mama o QQntain-f uid me a and rece fli t-ides e be oa e and 1m awin vi e or drawing; a icles'ffmm we; e a nd 'fl'lfi fiqr 2mm w ng. a d device 1 hat; points on thearticle lying given; plane, efi thganticle pass thmugh s ales; f m heafluiyh met-a a In et l. c ting me hine n cep a:

metal and mean a tuamm' am de? G1? S9; tha W Y: poin iinthe-.1

t Qn 0i a art clepas es. Wei- 3g ui .l-antiml-l'y the ly the same point in the surface of the metal,

emetalwefing m hin e ept d xp ed 9 c mfe mfluid m t and iveza ti lestq h me edm 1 fee ll-raving; a. is es mnmth n aq u ti g aidd v e $9 e.

cie passes through s l bgtant ifz lly the ame. m nt n the v eu ime Qf.z et hq PM? 0i rt c e be g;Sub erg d w 3. n; a: meta coating-,ma hin Mw'ptw c'lg adapted-t0 cpntainflliid -mgabal' in which: witdes are a apted, 9 he mmersei h ween- 01; drrawifng the: atticles {mm the fluid metal he ar ic e; and; means :fo 'a ua'tmg sa den-icegcyas to gauge it; t0 clraiwztn-article' 3mm the me a-1 and to; m it when; whally he li fi muther q uppermost and 01% l mp:-

wltuat ngvjsaid dev e: tm ause sa d d v c tqgivgih artic e a quick' unn t n-thr w he lQttom; Qfithe anticle: toi substantially a; Yen-- ticalposition so as to discharge excess-ma? terial-that-.m.ay be lodged onthe bottom of i351; lnthe; metal coating machine,- a =recep t'acle lada'pped ztq contaiirfiuigla met a1 in: which 2 

